KR101819888B1 - Airtight assembly structure of window and window frame - Google Patents

Abstract

The present invention relates to an airtight coupling structure (90) between a window and a window frame. The airtight coupling structure comprises: a rectangular window frame (100); a rectangular window (200) which is mounted respectively on the front and back sides of the window frame (100) in order to be open or closed in a sliding type; guide slots (141, 143) which are horizontally formed on the inner top surface (110) and the inner bottom surface (120) of the window frame (100), and are placed in parallel to each other in the front and back direction; and blades (210, 220) which protrude from the top (201) and the bottom (203) of the window (200) in order to be inserted into the guide slots (141, 143). Therefore, the airtight coupling structure can provide efficient airtightness because the top (201) and the bottom (203) of the window (200) are in contact with the inner top surface (110) and the inner bottom surface (120) of the window frame (100) respectively, and the blades (210, 220) are included between the window (200) and the window frame (100).

Description

Airtight assembly structure of window and window frame

The present invention relates to a hermetically coupled structure of a window and a window frame, and more particularly, to a hermetically coupled structure of a window and a window frame, wherein the airtightness is improved because the upper and lower ends of the window can be closely attached to the window frame.

Hereinafter, the airtight coupling structure 1 of a window and a window frame according to the background art will be described with reference to the accompanying drawings.

1 is a cross-sectional view showing a hermetically coupled structure of a window and a window frame according to the background art.

In order to install the sliding window 20 on the wall, a rectangular window frame 10 for guiding the window 20 must be installed on the wall.

The window frame 10 has rails 15 and 17 on an inner upper surface 11 and an inner lower surface 13 and inner right and left side surfaces respectively and guide slots 26 and 27 in which the rails 15 and 17 are fitted Are formed at the upper end 21, the lower end 23 and the left and right ends of the window 20, respectively. A roller 28 supported by a rail 17 formed on an inner bottom surface 13 of the window frame 10 is fixed in a guide slot 27 formed at a lower end 23 of the guide slots 26, .

In addition, two rails 15 and 17 are arranged in parallel inside and outside. Accordingly, the windows 20 are fitted on the rails 15 and 17, respectively, so that the windows 20 are disposed on the inside and outside of the rails 15 and 17 to open and close the window frame 10.

The window 20 disposed on the inner side and the outer side is inserted into the inner side surface 11 and the inner side surface 13 of the window frame 10 in the guide slots 26 and 27 formed on the upper and lower ends 21 and 23 The left and right sides of the window frame 20 can be moved to the guide slots (not shown) formed at the left and right ends of the window 20 in the closed state with the rails 15, A rail (not shown) formed on the bottom surface of the base body is fitted.

The roller 28 mounted inside the guide slot 27 formed at the lower end 23 is supported by the rail 17 formed on the inner bottom surface 13 of the window frame 10, Thereby enabling reciprocating movement.

According to the background art, there are the following problems.

1, in order to install the window 20 on the window frame 10, a guide slot 26 formed on the window 20 is provided with a rail (not shown) formed on the inner upper surface 11 of the window frame 10 15) so that the window 20 is lifted upward. The lower portion of the window 20 is pushed so that the guide slot 27 formed at the lower portion of the window 20 is positioned at the upper portion of the rail 17 formed on the inner bottom surface 13 of the window frame 10. When the window 20 is lowered, the rail 17 formed on the inner side lower surface 13 of the window frame 10 is inserted into the guide slot 27 formed at the lower portion to complete the installation. At this time, the roller (28) is supported on the rail (17). And the rail 15 formed on the inner upper surface 11 of the window frame 10 is held in the guide slot 26 formed in the upper portion. The upper end 21 of the window 20 is spaced apart from the inner upper surface 11 of the window frame 10 by the installation structure so that the gap G is inevitably formed. Since the lower end 23 of the window 20 is not caught by the rail 17 formed on the inner lower surface 13 when the window 20 is installed, The spacing H can not be avoided. Due to such a structure, the gap between the upper end 21 of the window 20 and the rail 15 formed on the inner upper surface 11 of the window frame 10, and between the lower end 23 of the window 20 and the inner side of the window frame 10 Air outside the room can easily flow into the room through the rails 17 formed in the door 13, thereby lowering the temperature of the room and causing foreign pollutants such as dust to enter the room.

Secondly, since the entire load of the window 20 is concentrated on the roller 28, noise is severely generated when the roller 28 is rolled due to the movement of the window 20, and the life of the roller 28 is shortened .

Third, since the entire load of the window 20 is concentrated on the roller 28, the entire load of the window 20 acts on the rail 17 formed on the inner bottom surface 13 of the window frame 10. Therefore, the rail 17 is quickly worn away when the window 20 is moved. As a result, the height of the rail 17 is lowered and the window 20 is lowered, The gap G between the upper end 21 of the window frame 10 and the inner upper surface 11 of the window frame 10 becomes larger and the airtightness becomes worse.

Korean Patent Publication No. 20-2016-0000616 (February 23, 2016)

The airtight coupling structure of the window and the window frame according to the present invention is intended to solve the following problems.

First, since the upper and lower ends of the window are separated from the inner upper surface and the inner lower surface of the window frame, outdoor air is introduced into the room, thereby lowering the room temperature and solving the problem of pollutants such as yellow dust flowing into the room.

Second, since the total load of the window concentrates on the roller, the problem of the noise occurring when the roller is rolled due to the movement of the window is solved, and the problem of shortening the life of the roller is solved.

Third, since the entire load of the window concentrates on the roller, the entire load of the window acts on the rail formed on the inner bottom surface of the window frame. Therefore, when the window is moved, the rail wears rapidly, and the window is lowered. As a result, the gap between the upper end of the window and the upper side of the window frame becomes larger, and the airtightness becomes worse I want to.

The airtight coupling structure of a window and a window frame according to the present invention is configured as follows to solve the above problems.

A guide slot formed in an inner upper surface and an inner lower surface of the window frame in a horizontal direction and arranged in a front and rear direction; And blades protruding from the upper and lower ends of the window to be inserted into the guide slots.

In addition, a guide slot is arranged in the front and rear side in an inner side surface formed in a vertical direction on the right and left sides of the window frame, and a blade protruded at left and right ends of the window to be inserted into the guide slot.

Further, the blade formed at the upper end of the window is configured to be lifted and lowered by an elastic means supported inside the window.

And a flange extending inwardly from an end of the guide slot opposite to both sides of the blade, the flange corresponding to both sides of the blade.

The window frame includes upper and lower beams arranged side by side in the upper and lower chambers and a side beam arranged laterally and laterally side by side so as to connect the upper and lower ends of the upper and lower beams.

The lower beam includes an inner cover facing the room side, a bridge connected to the inner cover, and an outer cover connected to the bridge and facing outdoors.

In addition, since the bridge is divided into two parts and connected to the heat insulating material, the bridge is configured to have a heat insulating function.

In addition, the surface on which the guide slot is formed on the inner bottom surface is formed higher than the surface on which the guide slot on the outdoor side is formed.

In addition, as the configuration of the lower beam, the inner cover includes an inner plate which is disposed long and arranged to the left and right, a bottom plate extending forward from the bottom of the inner plate, and a bottom plate extending upward from the front end of the bottom plate A flange extending downward from a front end of the top plate; and a flange extending downward from a front surface of the front plate, And rear projections arranged side by side in the upper and lower chambers.

In addition, the outer cover corresponds to the front plate and corresponds to the front plate, and includes a rear plate formed to be long and left and right, a bottom plate extending forward from a lower end of the rear plate, An upper plate extending horizontally rearward from a rear surface of the outer plate; the flange extending downward from a rear end of the upper plate; and a flange extending downward from a rear surface of the rear plate, And a front projection corresponding to the rear projection, the bridge being spaced apart from the flange of the inner cover and corresponding to the flange, and a rear projection extending forward from the upper end of the flange, A rear vertical plate extending downward from a front end of the rear horizontal plate; A rear vertical protrusion formed on the rear vertical plate and inserted between the rear protrusions, a front vertical plate connected to the rear vertical plate by the heat insulating material and aligned with the rear vertical plate, A front horizontal plate extending forward, a flange extending downward from a front end of the front horizontal plate and spaced apart from a flange of the outer cover, and a front flange formed on the front vertical plate, And includes a locking projection.

The inner cover may include an inner plate formed to be long and horizontally formed in left and right directions, a rear locking protrusion protruding forward from a lower end of the inner plate, And a flange extending downwardly from a front end of the top plate.

The outer cover includes an outer plate disposed forward and disposed to correspond to the inner plate and extending to left and right sides, a front locking protrusion protruding rearward from a lower end of the outer plate, An upper plate horizontally extending rearwardly and a flange extending downward at a rear end of the upper plate.

Further, the bridge includes a flange corresponding to the flange of the inner cover and corresponding to the flange, a rear horizontal flat plate extending forward from the upper end of the flange, a rear vertical plate extending downward from the rear horizontal flat plate, A rear lower plate extending rearward from a lower end of the vertical plate; and a rear protrusion protruding a-shaped on an upper surface of the rear lower plate to insert the rear protrusion, wherein the rear vertical plate is connected to the rear vertical plate by the heat insulating material A front vertical plate extending forward from an upper end of the front vertical plate, a flange extending downward from a front end of the front horizontal plate and spaced apart from the flange of the outer cover, A front lower plate extending forward from a lower end of the front vertical plate; And a front a-shaped protrusion to which the front locking protrusion is inserted.

The airtight coupling structure of the window and the window frame by the solution means has the following effects.

First, in a state where two windows are closed, the upper and lower ends of the window are in close contact with the inner upper surface and the inner lower surface of the window frame, respectively, and the upper and lower blades are interposed between the window and the window frame do. One side of the windows on both sides is in close contact with the inner side surface on the left side of the window frame, and the other side is in contact with the inside side surface on the right side of the window frame. In addition, the blades formed on the side of the window are interposed between the left and right ends of the window and the inner side surface of the window frame in a state of being inserted into guide slots formed on the inner side surfaces of the right and left sides of the window frame. Therefore, the present invention can prevent the outdoor air from entering the room and lowering or raising the room temperature, and solving the problem of the external dust or pollutants being introduced into the room.

Secondly, since the lower end of the window is held in close contact with the inner bottom surface of the window frame, the load of the window concentrated on the roller can be dispersed. Needless to say, at this time, the mohair is interposed between the lower end and the inner side. Therefore, there is an effect that the noise generated when the roller rolls can be reduced as compared with the background art.

Thirdly, since the load applied to the roller can be reduced by the second effect, the life of the roller can be extended as compared with the background art.

Fourthly, even if the roller is worn out, since the lower end of the window is seated on the inner bottom surface of the window frame, the window is lowered as in the background art and the gap is enlarged between the upper surface of the window and the inner upper surface of the window frame, Can be solved.

1 is a sectional view showing a hermetically coupled structure of a window and a window frame according to the background art;
2 is a perspective view showing a hermetically coupled structure of a window and a window frame according to the present invention.
3 is a cross-sectional view taken along the line F-F 'in Fig.
4 is a cross-sectional view taken along the line G-G 'in Fig. 2;
5 is an exploded perspective view showing a hermetically coupled structure of a window and a window frame according to the present invention.
6 is a cross-sectional view showing an upper beam of a window frame formed in a hermetically coupled structure of a window and a window frame according to the present invention.
7 is a cross-sectional view showing a lower beam of a window frame formed in a joining structure of a window and a window frame according to the present invention.
8 is a cross-sectional view showing another embodiment of a lower beam of a window frame formed in a hermetically coupled structure of a window and a window frame according to the present invention.
9 is a sectional view showing an upper beam of a window formed in a hermetically coupled structure of a window and a window frame according to the present invention.
10 is a sectional view showing an elastic means formed in a window of a hermetically coupled structure of a window and a window frame according to the present invention;
11 is a sectional view showing a process of mounting a window on a window frame in a hermetically coupled structure of a window and a window frame according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

2 is a cross-sectional view taken along line F-F 'of FIG. 2, and FIG. 4 is a sectional view taken along line G-G' of FIG. 2. FIG. 2 is a perspective view showing a hermetic sealing structure of a window and a window frame according to the present invention. And FIG. 5 is an exploded perspective view illustrating a hermetically coupled structure of a window and a window frame according to the present invention. The hermetic connection structure 90 of a window and a window frame according to the present invention will now be described.

A rectangular window frame 100 is constructed and a square window 200 is mounted on the window frame 100 in front and rear directions to be opened and closed in a sliding manner.

The window frame 100 includes guide slots 141 and 143 formed horizontally in an inner upper surface 110 and an inner lower surface 120 and arranged in a front and rear direction. And guide slots 145 and 147 formed in the vertical direction on the inner side surface 130 of the left and right inner sides of the window frame 100 and arranged in the front and rear direction.

Further, flanges 151, 152, 153, and 155 extending inward and laterally from the ends of the guide slots 141, 143, 145, and 147 are formed. Accordingly, when the blades 210, 220, 230 and 240 are inserted into the guide slots 141, 143, 145 and 147, the flanges 151, 152, 153, and 155 correspond to each other.

3 and 4, the surface L on which the guide slot 143 is formed on the inner side surface 120 is formed higher than the surface K on which the guide slot 141 on the outdoor side is formed, Is prevented from being introduced. Therefore, the height of the window 200 installed in the guide slot 143 of the indoor side is lower than the height of the window 200 installed in the guide slot 141 of the outdoor side.

FIG. 6 is a sectional view showing an upper beam of a window frame formed in a hermetically coupled structure of a window and a window frame according to the present invention, and FIG. 7 is a sectional view showing a lower beam of the window frame, The structure of the window frame 100 will be described in more detail as follows.

The window frame 100 includes upper and lower beams 160 and 170 arranged in parallel to each other in the upper and lower directions and connects left and right ends of the upper beam 160 and the lower beam 170, Side beams 180 are arranged side-by-side. The guiding slots 141 and 143 disposed on the upper and lower parts are formed in the upper beam 160 and the lower beam 170 and the guiding slots 145 and 147 disposed on the left and right sides are formed in the side beams 180).

The lower beam 170 includes an inner cover 1701 facing the indoor side and a bridge 1720 connected to the inner cover 1701. And an outer cover 1740 connected to the bridge 1720 and facing outdoors.

Further, the bridge 1720 is divided into two parts and connected by a heat insulating material 1721, so that the bridge 1720 is configured to have a heat insulating effect. That is, it is configured to prevent the phenomenon that outdoor heat or cold air is transmitted to the inside of the room, and to prevent the heat or cool air from being transmitted to the outside. As the heat insulating material 1721, for example, an amine which is a synthetic resin material is preferably used. It is needless to say that various materials such as a synthetic resin material and a wood having a heat insulating effect can be used.

In addition, the roller 300 is mounted on the bottom surface of the lower beam 170 to correspond to the guide slots 141 and 143. Therefore, it is configured to support the blade 220 formed at the lower end of the window 200 described later.

7, the structure of the lower beam 170 will be described in more detail.

The inner cover 1701 has an inner plate 1703 which is arranged long and long in the left and right direction and a bottom plate 1705 extending forward from the lower end of the inner plate 1703. A front plate 1707, which extends upward from the front end of the bottom plate 1705 and is formed lower than the inner plate 1703, is formed. An upper plate 1711 extending horizontally toward the front is formed in the inner plate 1703 and the flange 155 extending downward from the front end of the upper plate 1711 is formed. A rear projection 1715 extending forward from the front surface of the front plate 1707 and arranged in parallel to the upper and lower walls is formed.

The outer cover 1740 corresponds to the front plate 1707 and is spaced apart from the front plate 1707. The rear plate 1741 is formed to be long and left and right. An outer plate 1745 which extends upward from the front end of the lower plate 1743 and which is higher than the rear plate 1741 is formed in the lower plate 1743. The lower plate 1743 extends forward from the lower end of the rear plate 1741, . A top plate 1747 horizontally extending from the rear surface of the outer plate 1745 is formed and the flange 151 extending downward from the rear end of the top plate 1747 is formed. The rear protrusion 1751 extends rearward from the rear surface of the rear plate 1741 and is disposed in parallel with the upper and lower chambers. The front protrusion 1751 corresponds to the rear protrusion 1715.

The bridge 1720 is spaced apart from the flange 155 of the inner cover 1701 to form the corresponding flange 153 and a rear horizontal plate 1725 extending forward from the upper end of the flange 153 ). A rear vertical plate 1727 extending downward from the front end of the rear horizontal plate 1725 is formed and a rear locking protrusion 1730 formed in the rear vertical plate 1727 and inserted between the rear protrusions 1715 1729). The front vertical plate 1731 is connected to the rear vertical plate 1727 by the heat insulating material 1721 and is formed to be parallel to the rear vertical plate 1727. A front horizontal plate 1733 extends forward from the upper end of the front vertical plate 1731 and extends downward from a front end of the front horizontal plate 1733, The corresponding flange 152 is formed. And a front locking protrusion 1739 formed in the front vertical plate 1731 and inserted between the front protrusions 1751.

The rollers 300 are mounted on the bottom surfaces of the inner cover 1701 and the outer cover 1740, that is, the upper surfaces of the lower plates 1705 and 1743, do. The inner plate 1703 and the outer plate 1745 are connected to each other by a bridge (not shown) by inserting the rear locking protrusion 1729 between the rear protrusions 1715 and inserting the front locking protrusion 1739 between the front protrusions 1751. [ 1720). The rear locking protrusion 1729 and the front locking protrusion 1739 are combined by interference fit.

In addition, the surface L on which the guide slot 143 on the indoor side is formed is formed to be higher than the surface K on which the guide slot 141 on the outdoor side is formed, so that rainwater is prevented from being introduced during rainfall, The upper plate 1725 and the upper plate 1711 are formed higher than the upper plate 1747 and the front horizontal plate 1733.

8 is a cross-sectional view illustrating another embodiment of a lower beam of a window frame constructed in a hermetically coupled structure of a window and a window frame according to the present invention. The other configuration of the lower beam 170 will be described below.

The inner cover 1701 is formed with an inner plate 1704 which is long and formed to the left and right and a rear locking protrusion 1706 protruding forward from the lower end of the inner plate 1704. And a top plate 1746 extends horizontally forwardly from the front surface of the inner plate 1704 and the flange 155 extends downward from the front end of the top plate 1746.

The outer cover 1740 is formed upright on the front side to correspond to the inner plate 1704 and has an outer plate 1742 elongated to the left and right sides, (Not shown). The top plate 1748 extends horizontally from the rear of the outer plate 1742 and the flange 151 extends downwardly from the rear end of the top plate 1748.

The bridge 1720 is formed with a corresponding flange 153 spaced apart from the flange 155 of the inner cover 1701 so that the rear horizontal plate 1724 extends forward from the upper end of the flange 153 do. A rear vertical plate 1726 extends downward from the rear horizontal plate 1724 and a rear lower plate 1728 extends rearward from a lower end of the rear vertical plate 1726. A rear protrusion 1732 is formed on the upper surface of the rear lower plate 1728 so as to be a-shaped so as to be inserted into the rear locking protrusion 1706. The rear vertical plate 1726 is connected to the rear vertical plate 1726 by the heat insulating material 1721 And the front vertical plate 1734 is arranged in parallel. A front horizontal plate 1736 extending forward from the upper end of the front vertical plate 1734 is formed and extends downward from a front end of the front horizontal plate 1736, 151 are spaced apart from each other to form the corresponding flange 152. The front lower plate 1738 extends forward from the lower end of the front vertical plate 1734. And a front a-shaped protrusion 1742 protruding a-shaped from the upper surface of the front lower plate 1738 to insert the front locking protrusion 1744 is formed.

The rollers 300 are mounted on the bottom surfaces of the inner plate 1704 and the outer plate 1742 so as to correspond to the guide slots 141 and 143, respectively. The front locking protrusion 1744 is inserted into the front protrusion 1742 and the inner plate 1704 and the outer plate 1742 are inserted into the rear locking protrusion 1742 by inserting the rear locking protrusion 1706 into the rear protrusion 1732, Can be connected by a bridge 1720. The rear locking projection 1706 and the front locking projection 1744 are combined with the rear projection 1732 and the front projection 1742 by interference fit.

In addition, the surface L on which the guide slot 143 on the indoor side is formed is formed to be higher than the surface K on which the guide slot 141 on the outdoor side is formed, so that rainwater is prevented from being introduced during rainfall, The upper plate 1724 and the upper plate 1746 are formed higher than the upper plate 1748 and the front horizontal plate 1736.

Fig. 5 is an exploded perspective view showing a hermetically coupled structure of a window and a window frame according to the present invention, Fig. 9 is a sectional view showing an upper beam of a window formed in a hermetically- FIG. 4 is a cross-sectional view illustrating an elastic means formed in a window of a hermetically coupled structure of a window and a window frame according to the present invention, wherein the structure of the window 200 will be described in detail.

The window frame 100 includes upper and lower beams 260 and 270 arranged in parallel to each other in the upper and lower directions and connects left and right ends of the upper beam 260 and the lower beam 270, A side beam 280 is arranged side-by-side.

The upper end 201 of the upper beam 260 and the lower end 203 of the lower beam 270 and the side beams of the left and right sides of the lower beam 270 are inserted into the guide slots 141, 143, 145, The blades 210, 220, 230, and 240 protrude from the outer side ends 205 of the first and second guide plates 280 and 280.

The blade 210 formed at the upper end 201 of the upper beam 260 is configured to be raised and lowered by the elastic means 250 supported inside the upper beam 160. That is, when the force is applied, it is lowered, and when the force is removed, the force is projected back to the original state.

A rib 263 is formed horizontally in the upper beam 260 to support the elastic means 250 in the upper beam 260 and the blade 210 The through holes 269 are horizontally formed.

On the upper surface of the rib 263, a C-shaped elastic means 250 is fixed by a piece 267. The blade 210 contacts the upper end of the elastic means 250 through the through hole 269. The compression flange 230 extends horizontally forward and backward from the lower end of the blade 210 to facilitate compression. (213) are formed. At this time, it is preferable that the blade 210 is constructed such that the upper end thereof can be completely received downwardly of the through hole 269.

Mohair is attached to the inner surfaces of the flanges 151, 152, 153, and 155 or the outer surfaces of the blades 210, 220, 230, and 240 to enhance airtightness. In addition, mohair may be attached to the outer edge of the window 200 or the inner surface of the window frame 100 to improve airtightness. The upper end 201 and the lower end 203 of the window 200 are configured to be in close contact with the inner upper surface 110 and the inner lower surface 120 of the window frame 100 to improve airtightness.

11 is a cross-sectional view illustrating a process of mounting a window on a window frame in a hermetically coupled structure of a window and a window frame according to the present invention.

A blade 220 protruding downward in a state in which the upper end of the window 200 is tilted toward the indoor side is inserted into the guide slots 141 and 143 disposed outside the guide slots 141 and 143 formed in the lower portion of the window frame 100 ). Then, the upper end of the window 200 is inserted into the window frame 100 while the protruded blade 210 is pressed. At this time, the blade 220 is deeply inserted into the guide slot 141. When the blade 210 thus pressed is located in the guide slot 141 formed on the inner upper surface 110 of the window frame 100, the force that the blade 210 is pressed against is released. Then, the blade 210 protrudes upward and is inserted into the guide slot 141. Accordingly, the window 200 can be combined with the window frame 100.

Likewise, the window 200 is installed in the guide slot 143 located on the inner side of the window frame 100 in the same manner.

The windows 200 thus installed are opened and closed while the blades 210 and 220 formed at the upper and lower portions are reciprocated while being inserted into the guide slots 141 and 143.

The airtight coupling structure 90 between the window and the window frame according to the present invention has the following effects.

The upper end 201 and the lower end 203 of the window 200 are in close contact with the inner upper surface 110 and the inner lower surface 120 of the window frame 100 while the two windows 200 are closed, The blades 210 and 220 of the blades 210 and 220 interpose between the window 200 and the window frame 100 while being inserted into the guide slots 141 and 143, respectively.

One side of the window 200 on both sides is in close contact with the inner side surface 130 on the left side of the window frame 100 and the other side is in contact with the inside side surface 130 on the right side of the window frame 100. The blades 230 and 240 formed on the side of the window 200 are inserted into the guide slots 145 and 147 formed on the inner side 130 of the left and right sides of the window frame 100, Between the left and right side ends 205 of the window frame 100 and the inner side surface 130 of the window frame 100. Accordingly, the present invention can prevent the outdoor air from entering the room and lowering or raising the temperature of the room, and can solve the problem that external dust or pollutants are introduced into the room.

In addition, since the lower end 203 of the window 200 is closely contacted to the inner bottom surface 120 of the window frame 100, the load of the window 200 concentrated on the roller 300 can be dispersed. It goes without saying that the mohair is interposed between the lower end 203 and the inner bottom surface 120 at this time. Therefore, the noise generated when the roller 300 is rolled can be reduced compared to the background art, and the load applied to the roller 300 can be reduced, so that the life of the roller 300 is extended . Even if the roller 300 is worn, the lower end 203 of the window 200 is seated on the inner bottom surface 120 of the window frame 100, so that the window 200 descends like the background art, It is possible to solve the problem that the gap is enlarged between the upper end 201 of the window frame 200 and the inner upper surface 110 of the window frame 100 to degrade airtightness.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Therefore, it is to be understood that the embodiments disclosed herein are not for purposes of limiting the technical idea of the present invention, but are intended to be illustrative, and therefore, the scope of the technical idea of the present invention is not limited by these embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

90: airtight connection structure of window and window frame structure 100: window frame
110: inner upper surface 120: inner side surface
130: inner side 141, 143, 145, 147: guide slot
151, 152, 153, 155: flange 160: upper beam
170: lower beam 180: side beam
200: Window 201: Top
203: bottom 205: side
210, 220, 230, 240: blade 250: elastic means
260: upper beam 270: lower beam
280: Side beam 1701: Inner cover
1720: Bridge 1740: Outer cover

Claims (9)

delete delete delete delete delete delete delete A rectangular window frame 100,
And a rectangular window (200) mounted on the window frame (100) in forward and backward directions and opened and closed by a sliding door,
Guide slots 141 and 143 horizontally formed on an inner upper surface 110 and an inner lower surface 120 of the window frame 100 and arranged in a front and rear direction,
Blades 210 and 220 protruding from an upper end 201 and a lower end 203 of the window 200 to be inserted into the guide slots 141 and 143,
And a mohair interposed between a lower end 203 of the window 200 and an inner bottom surface 120 of the window frame 100,
Guide slots (145, 147) formed in the vertical direction on the inner side surface (130) formed on the right and left sides of the inside of the window frame (100)
And blades 230 and 240 protruding from left and right ends 205 of the window 200 to be inserted into the guide slots 145 and 147,
The blade 210 formed on the upper end 201 of the window 200 is configured to be raised and lowered by a C type elastic means 250 fixed to the inside of the window 200 by a piece 267,
Extending inwardly from an end opposite to both sides of the blades 210 and 220 in the guide slots 141 and 143 formed on the inner upper surface 110 and the inner lower surface 120 of the window frame 100, 152, 153, 155 corresponding to both side surfaces of the first and second flanges (210, 220)
The surface L on which the guide slot 143 on the indoor side is formed on the inner bottom surface 120 is formed higher than the surface K on which the guide slot 141 on the outdoor side is formed,
The window frame (100)
An upper beam 160 and a lower beam 170 arranged in parallel to each other in the upper and lower chambers,
And a side beam 180 that is laterally spaced from each other by connecting left and right ends of the upper beam 160 and the lower beam 170,
The lower beam (170)
An inner cover 1701 facing the indoor side,
A bridge 1720 connected to the inner cover 1701,
And an outer cover (1740) connected to the bridge (1720) and facing outdoors,
The inner cover (1701)
An inner plate 1703 which is long and arranged to the left and right,
A lower plate 1705 extending forward from the lower end of the inner plate 1703,
A front plate 1707 extending upward from a front end of the bottom plate 1705 and formed lower than the inner plate 1703,
An upper plate 1711 horizontally extending forward from the inner plate 1703,
The flange 155 extending downward from the front end of the top plate 1711,
And a rear projection (1715) extending forward from the front surface of the front plate (1707) and arranged vertically and horizontally,
The outer cover 1740 corresponds to the front plate 1707 and corresponds to the front plate 1707. The outer cover 1740 includes a rear plate 1741,
A lower plate 1743 extending forward from a lower end of the rear plate 1741,
An outer plate 1745 extending upward from the front end of the lower plate 1743 and higher than the rear plate 1741,
An upper plate 1747 horizontally extending from the rear surface of the outer plate 1745 rearward,
The flange 151 extending downward from the rear end of the top plate 1747,
And a front protrusion 1751 extending rearward from the rear surface of the rear plate 1741 and arranged in parallel to the upper and lower chambers and corresponding to the rear protrusion 1715,
The bridge 1720 is spaced apart from the flange 155 of the inner cover 1701 and corresponds to the flange 153,
A rear horizontal plate 1725 extending forward from the upper end of the flange 153,
A rear vertical plate 1727 extending downward from the front end of the rear horizontal plate 1725,
A rear locking protrusion 1729 formed in the rear vertical plate 1727 and inserted between the rear protrusions 1715,
A front vertical plate 1731 connected to the rear vertical plate 1727 by a heat insulating material 1721 and formed in parallel to the rear vertical plate 1727,
A front horizontal plate 1733 extending forward from the upper end of the front vertical plate 1731,
A flange 152 extending downward from the front end of the front horizontal plate 1733 and spaced apart from the flange 151 of the outer cover 1740,
A front locking protrusion 1739 formed in the front vertical plate 1731 and inserted between the front protrusions 1751 ,
And a roller 300 mounted on the bottom surfaces of the inner cover 1701 and the outer cover 1740 and corresponding to the guide slots 141 and 143 . delete

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